Method of operating a laboratory sample distribution system, laboratory sample distribution system and a laboratory automation system

We claim: 1. A method of operating a laboratory sample distribution system, the method comprising: providing the laboratory sample distribution system comprises a plurality of container carriers, wherein each container carrier comprises at least one magnetically active device and carries a sample container containing a sample; and a transport device comprising a transport plane to carry the plurality of container carriers, a plurality of electro-magnetic actuators stationary arranged below the transport plane, wherein the electro-magnetic actuators move a container carrier placed on top of the transport plane by applying a magnetic force to the container carrier, wherein the transport plane is configured to support the sample container carriers, wherein the transport plane comprises a plurality of transfer locations, wherein the transfer locations are assigned to corresponding laboratory stations, and a drive, wherein the drive is configured to move the sample container carriers on the transport plane; initializing the system, wherein initializing the system includes pre-calculating fixed routes on the transport plane between the transfer locations; after initialization of the laboratory sample distribution system, collecting operating data of the laboratory sample distribution system including determining the number of container carriers being moved; and subsequently controlling the drive such that all sample container carriers move along the same pre-calculated fixed routes on the transport plane; and during a next initialization of the laboratory sample distribution system, pre-calculating the routes additionally depending on the operating data, wherein the operating data comprise information regarding a volume of traffic on the routes. 2. The method according to claim 1 , wherein the routes are calculated using an informed search algorithm. 3. The method according to claim 1 , wherein the informed search algorithm is an A*-algorithm or a D*-algorithm. 4. The method according to claim 1 , wherein the routes are calculated such that a number of intersections between different routes are minimized. 5. The method according to claim 1 , wherein during the initialization of the laboratory sample distribution system, buffer areas located on the transport plane are allocated to the laboratory stations, wherein samples waiting to be analyzed by the laboratory stations are buffered in the buffer areas. 6. The method according to claim 5 , wherein the buffer areas are allocated such that the pre-calculated routes do not intersect the buffer areas. 7. The method according to claim 5 , wherein sample container carriers are entered into the buffer areas or removed from the buffer areas over the transfer locations. 8. The method according to claim 1 , wherein the transport plane is segmented into logical fields, wherein in a time-prioritized reservation scheme, an adjustable number of logical fields positioned on a pre-calculated route is reserved for sample container carriers movement, wherein the sample container carriers movement on the pre-calculated routes comprise reserving logical fields with a higher time priority than for other sample container carriers. 9. The method according to claim 1 , wherein pre-calculating the routes comprises that a plurality of lanes assigned to the routes is determined depending on the volume of traffic. 10. The method according to claim 1 wherein samples and/or sample containers and/or sample container carriers are transferred to/from the laboratory stations using the transfer locations. 11. The method according to claim 1 , wherein during initialization of the laboratory sample distribution system, the routes are pre-calculated between the transfer locations. 12. A laboratory sample distribution system, the laboratory sample distribution system comprising: a plurality of container carriers, wherein each container carrier comprises at least one magnetically active device and carries a sample container containing a sample; a transport device comprising a transport plane to carry the plurality of container carriers, a plurality of electro-magnetic actuators stationary arranged below the transport plane, wherein the electro-magnetic actuators move a container carrier placed on top of the transport plane by applying a magnetic force to the container carrier, wherein the transport plane is configured to support the sample container carriers, wherein the transport plane comprises a plurality of transfer locations, wherein the transfer locations are assigned to corresponding laboratory stations; a drive, wherein the drive is configured to move the sample container carriers on the transport plane; and a control unit, wherein the control unit is configured to: initialize the system, wherein initializing the system includes pre-calculating fixed routes on the transport plane between the transfer locations; after initializing the laboratory sample distribution system, collecting operating data of the laboratory sample distribution system including determining the number of container carriers being moved; and subsequently controlling the drive such that all sample container carriers move along the same pre-calculated fixed routes on the transport plane; and during a next initialization of the laboratory sample distribution system, pre-calculating the routes additionally depending on the operating data, wherein the operating data comprise information regarding a volume of traffic on the routes. 13. A laboratory automation system, the laboratory automation system comprising a plurality of laboratory stations; and a laboratory sample distribution system according to claim 12 . 14. The laboratory automation system according to claim 13 , wherein the plurality of laboratory stations comprise pre-analytical, analytical and/or post-analytical stations.